Method and apparatus for network personalization of subscriber devices

ABSTRACT

A method and apparatus are provided for a subsidizing service provider entity to personalize a subscriber device to ensure the subscriber device cannot be used in a network of a different service provider entity. As the service provider entity subsidizes the subscriber device, it desires to ensure that subscriber device is personalized such that the subscriber device may operate only in its network and not a network of a different service provider entity. The subscriber device is pre-configured with a plurality of provider-specific and/or unassociated root certificates by the manufacturer of the subscriber device. A communication service is established between the service provider entity and the subscriber device allowing for the mutual authentication of the subscriber device and the service provider entity. After mutual authentication, the service provider entity sends a command to the subscriber device to disable/delete some/all root certificates that are unassociated with the service provider entity.

CLAIM OF PRIORITY UNDER 35 U.S.C. §119

The present application for patent claims priority to U.S. ProvisionalApplication No. 61/327,518 entitled “Method and Apparatus for NetworkPersonalization of Subscriber Devices”, filed Apr. 23, 2010, andassigned to the assignee hereof and hereby expressly incorporated byreference herein.

BACKGROUND

1. Field

One feature relates to communication systems, and more particularly, toan improved method for a service provider entity to personalize asubscriber device to ensure the subscriber device cannot be used in anetwork of a different service provider entity.

2. Background

Mobile network operators (i.e. network entities, service providers orservice provider entities) may wish to subsidize subscriber devices,such as femtocells/Home (e) Node Bs (H(e)NB), relays, end-user devicesincluding modems, tablets, and mobile phones. However, many of theseemerging subscriber devices may not use smartcards for authentication,but instead may rely on authentication based on device certificates.

A network entity or service provider entity that subsidizes such adevice may want to ensure that the subsidized device cannot be used in anetwork for a different service provider entity. As there is mutualauthentication between the subscriber device, such as a femtocell, andthe network of the service provider entity (e.g., Security Gateway inthe case of femtocells), one way to achieve ensuring that the subsidizeddevice cannot be used in a network for a different service providerentity is by ensuring that the subscriber device will successfullyauthenticate only to a specific service provider entity. Current methodsfor accomplishing this provide for the device manufacturer to install aroot certificate for only one service provider entity on the subsidizeddevice. Although this will enable a subsidizing service provider entityto ensure the subsidized device cannot be used in a network for adifferent service provider entity, it creates inefficiencies in themanufacturing process and prevents a subscriber device which wasmanufactured for one service provider entity from being sold to another,for example in the situation in which an order is cancelled.

Therefore, a system and method are needed that allow a subsidizingservice provider entity to ensure a subsidized device cannot be used ina network for a different service provider entity while preventing thecurrent inefficiencies in the manufacturing process.

SUMMARY

Service provider entities (e.g., wireless service provider entities orcarriers) that subsidize subscriber devices (e.g., mobile devices) wantto ensure that a subsidized device cannot be used in a network for adifferent service provider entity. To ensure the subscriber device mayoperate only in its network and not in a network of a different serviceprovider entity, the service provider entity may personalize thesubscriber device by disqualifying all pre-configured root certificatesstored on the subscriber device that are unassociated with the serviceprovider entity.

One feature provides a method operational on a subscriber device. Thesubscriber device, pre-configured with a plurality of root certificates,is personalized by a service provider identity. To personalize thesubscriber device, a communication service or link with the serviceprovider entity that is providing the subsidization is established. Byestablishing the communication service or link, mutual authentication ofthe subscriber device and the service provider entity may then becompleted. That is, the subscriber device is authenticated with theservice provider entity and the service provider entity is authenticatedwith the subscriber device. The service provider entity is authenticatedusing a root certificate from among the plurality of root certificatespre-configured in the subscriber device.

After mutual authentication, the subscriber device may receive a commandfrom the service provider to disqualify all root certificates that areunassociated with the service provider entity. By disqualifying all rootcertificates on the subscriber device that are not associated with theservice provider entity that is subsidizing the subscriber device, thesubscriber device may be unable to authenticate with a different serviceprovider entity and thus will not be able to access services offered bydifferent service provider entities.

In response to the command, the subscriber device may then disqualifythe root certificates specified by the service provider entity bydisabling them. If attempts to disable the unassociated rootcertificates fail, the subscriber device may then receive a command fromthe service provider entity to delete the unassociated rootcertificates. Alternatively, if the subscriber device initially attemptsto disqualify the specified root certificates by deleting them andfails, the subscriber device may then receive a command from the serviceprovider entity to attempt to disable them.

Upon the occurrence of a pre-determined event, such as the terminationof a service contract between the subscriber device and the serviceprovider entity, the subscriber device may receive an additional commandfrom the service provider entity to enable the specified rootcertificates that have previously disabled. Alternatively, if thespecified root certificates were deleted, the additional command fromthe service provider entity is to replace the specified rootcertificates that have been previously deleted.

Another feature provides a subscriber device personalized by asubsidizing service provider entity. The subscriber device may include aprocessing circuit coupled to a memory device, for storing a pluralityof root certificates, and a network communication interface forproviding connectivity to the subsidizing service provider entity. Acommand may then be received from the service provider entityinstructing the subscriber device to disqualify specified rootcertificates stored in the memory device; the specified rootcertificates are unassociated with the service provider entity. Thesubscriber device then disqualifies the specified root certificatesallowing access to all the services and features offered by serviceprovider entity.

Another feature provides a subscriber device personalized by asubsidizing service provider entity, which subscriber device may includemeans for establishing a communication service with a service providerentity. The subscriber device may further include means for receiving acommand from the service provider entity to disqualify specified rootcertificates stored in the subscriber device, the specified rootcertificates unassociated with the service provider entity. Means fordisqualifying the specified root certificates may also be included.

Yet another feature provides a computer-readable medium that includesinstructions for personalizing a subscriber device by a service providerentity. When executed by a processor, the instructions may cause theprocessor to establish a communication service with a service providerentity; receive a command from the service provider entity to disqualifyspecified root certificates stored in the subscriber device, thespecified root certificates unassociated with the service providerentity; and disqualify the specified root certificates.

A method operational on a service provider entity is also provided. Theservice provider entity may subsidize a subscriber device and desire toensure that the subscriber device may operate only in its network andnot in a network of a different service provider entity. To prevent thesubscriber device from operating in a different service provider entitynetwork, the service provider entity may personalize the subscriberdevice by disqualifying all root certificates pre-configured on thesubscriber device that are unassociated with the service providerentity.

To personalize the subscriber device, a communication service or link isestablished with the subscriber device. The communication service may beestablished, for example, by the subscriber device being turned on orentering the network of the service provider entity. By establishing acommunication service or link, mutual authentication of the serviceprovider entity and the subscriber device may then be completed. Aftermutual authentication, the service provider entity may send a command tothe subscriber device to disqualify specified root certificates storedon the subscriber device that are unassociated with the service providerentity.

The service provider entity may command the subscriber device todisqualify the root certificates by disabling them. If disablement ofthe unassociated root certificates fails, the service provider entitymay then command the subscriber device to delete the unassociated rootcertificates. Alternatively, if deletion of the specified rootcertificates fails, the service provider entity may then command thesubscriber device to disable them.

Upon the occurrence of a pre-determined event, such as the terminationof a service contract between the service provider entity and thesubscriber device, the service provider entity may send an additionalcommand to the subscriber device to enable the specified rootcertificates that have previously disabled. Alternatively, if thespecified root certificates were deleted, the additional command fromthe service provider entity is to replace the specified rootcertificates that have been previously deleted.

Another feature provides a service provider entity that personalizes asubscriber device. The service provider entity may include a processingcircuit coupled to a memory device and a network communication interfacefor providing connectivity to the subscriber device. The serviceprovider entity may establish a communication service or link with thesubscriber device and mutual authentication between the subscriberdevice and the service provider entity may be accomplished. A commandmay then be sent to the subscriber device instructing the subscriberdevice to disqualify specified root certificates stored in thesubscriber device; the specified root certificates are unassociated withthe service provider entity.

Another feature provides a service provider entity for personalizing asubscriber device, which service provider entity include means forestablishing a communication service with a subscriber device. Thesubscriber device may further include means for sending a command to thesubscriber device to disqualify specified root certificates stored onthe subscriber device, the specified root certificates unassociated withthe service provider entity.

Yet another feature provides a computer-readable medium that includesinstructions for a service provider entity personalizing a subscriberdevice. When executed by a processor, the instructions may cause theprocessor to establish a communication service with a subscriber device;and send a command to the subscriber device to disqualify specified rootcertificates stored on the subscriber device, the specified rootcertificates unassociated with the service provider entity.

BRIEF DESCRIPTION OF THE DRAWINGS

Various features, natures and advantages may become apparent from thedetailed description set forth below when taken in conjunction with thedrawings in which like reference characters identify correspondinglythroughout.

FIG. 1 illustrates a wireless network communication system in accordancewith an aspect.

FIG. 2 is a flow diagram illustrating the operation of a communicationsystem in which a service provider entity personalizes a subscriberdevice to ensure the subscriber device cannot be used in a network of adifferent service provider entity by commanding the subscriber device todisable all root certificates unassociated with the service providerentity.

FIG. 3 is a flow diagram illustrating the operation of a communicationsystem in which a service provider entity personalizes a subscriberdevice to ensure the subscriber device cannot be used in a network of adifferent service provider entity by commanding the subscriber device todelete all root certificates unassociated with the service providerentity.

FIG. 4 illustrates a block diagram of an internal structure of asubscriber device according to one example.

FIG. 5 (comprising FIGS. 5A, 5B, 5C and 5D) illustrates an example ofthe operation of the subscriber device.

FIG. 6 illustrates a block diagram of an internal structure of a serviceprovider entity according to one example.

FIG. 7 (comprising FIGS. 7A, 7B and 7C) illustrates an example of theoperation of the service provider entity.

FIG. 8 illustrates how a set of unassociated root certificates may beprovisioned in a subscriber device and disabled by a service providerentity.

FIG. 9 illustrates how a set of provider-specific root certificates maybe provisioned in a subscriber device and disabled by a service providerentity.

FIG. 10 illustrates an example of a root certificate/key hierarchy.

DETAILED DESCRIPTION

In the following description, specific details are given to provide athorough understanding of the embodiments. However, it will beunderstood by one of ordinary skill in the art that the embodiments maybe practiced without these specific details. For example, circuits maybe shown in block diagrams, or not be shown at all, in order not toobscure the embodiments in unnecessary detail. In other instances,well-known circuits, structures and techniques may not be shown indetail in order not to obscure the embodiments.

The word “exemplary” is used herein to mean “serving as an example,instance, or illustration.” Any implementation or embodiment describedherein as “exemplary” is not necessarily to be construed as preferred oradvantageous over other embodiments. Likewise, the term “embodiments”does not require that all embodiments include the discussed feature,advantage or mode of operation.

As used herein, an access point may be a fixed station used forcommunicating with an end-user device and may also be referred to as,and include some or all the functionality of, a base station, a Node B,or some other terminology. An end-user device may also be referred toas, and include some or all the functionality of, a user equipment (UE),a wireless or wired communication device, terminal, mobile terminal, amobile station and/or any other suitable device for communicating over anetwork.

Overview

One feature provides a way to allow a subsidizing service providerentity (e.g., wireless service provider entity or carrier) topersonalize a subscriber device to ensure the subscriber device cannotbe used in a network of a different service provider entity. To ensurethe subscriber device may operate only in its network and not in anetwork of a different service provider entity, the service providerentity may personalize the subscriber device by disqualifying allpre-configured root certificates on the subscriber device that areunassociated with the service provider entity.

According to one example, a method for personalizing a subscriber deviceis provided. The subscriber device may be pre-configured with aplurality of root certificates associated with a plurality of differentservice provider entities by the manufacturer of the subscriber device.Upon turning on the subscriber device or entering the network of theservice provider entity, a communication service or link may beestablished between the service provider entity and the subscriberdevice. Once the communication service or link has been established,mutual authentication of the subscriber device and the service providerentity may be completed. After mutual authentication, the serviceprovider entity may send a command (i.e. instructions) to the subscriberdevice to disqualify all root certificates that are unassociated withthe service provider entity. By disqualifying all root certificates onthe subscriber device that are not associated with the service providerentity that is subsidizing the subscriber device, the subscriber devicemay be unable to authenticate with a different service provider entityand thus will not be able to access services offered by other serviceprovider entities which are not subsidizing the subscriber device.

In accordance with one aspect, the root certificates that areunassociated with the service provider entity may be disqualified bydisabling the root certificates on the subscriber device. In otherwords, all root certificates, with the exception of the root certificateassociated with the subsidizing service provider entity, may be disabledrendering them unusable until the service provider entity commands (orinstructs) the subscriber device to enable the previously disabled rootcertificates. All disabled root certificates may remain on thesubscriber device.

In accordance with another aspect, the root certificates that areunassociated with the service provider entity may be disqualified bydeleting them from the subscriber device. In other words, all rootcertificates, with the exception of the root certificate associated withthe subsidizing service provider entity, may be deleted from thesubscriber device preventing the subscriber device from accessing anetwork of a different service provider entity.

After receiving the command from the service provider entity todisqualify all root certificates stored on the subscriber device thatare unassociated with the service provider entity, the subscriber devicemay attempt to comply with the command by either disabling or deletingthe unassociated root certificates, as instructed. Once the subscriberdevice has disabled or deleted the unassociated root certificates asinstructed, or attempted to disable or delete the unassociated rootcertificates as instructed, the subscriber device may send anacknowledgement to the service provider entity. The acknowledgement mayeither indicate that the instructions to disqualify the unassociatedroot certificates were successful or that the disqualification of theunassociated root certificates failed. Upon receiving a failureacknowledgement from the subscriber device, the service provider entitymay take additional steps to disqualify the unassociated rootcertificates. For example, if attempts to disable the unassociated rootcertificates failed, the service provider entity may then command thesubscriber device to delete the unassociated root certificates.Alternatively, if attempts to delete the unassociated root certificatesfailed, the service provider entity may then command the subscriberdevice to disable the unassociated root certificates.

After all root certificates unassociated with the subsidizing serviceprovider entity have been disqualified, a communication link may then beestablished between the service provider entity and the subscriberdevice providing the subscriber device access to higher-level services

Once the high-level communication service or link has been established,the subscriber device may then have access to all functions and servicesavailable to the subscriber device. Furthermore, the subscriber devicemay be unable to authenticate with other service provider entities.

In yet another example, upon the occurrence of a pre-determined event,the service provider entity may optionally determine if the subscriberdevice may again have access to all the root certificates that wereoriginally pre-configured onto the subscriber device, including all theroot certificates that had been disqualified. The pre-determined eventmay be, for example, the end of a service contract between thesubsidizing subscriber device and the service provider entity or uponpayment of an unlocking or termination fee to the subsidizing serviceproviding entity. Once the pre-determined event has occurred, theservice provider entity may send a command to the subscriber device toenable root certificates previously disabled, or replace rootcertificates previously deleted. As a result, the subscriber device maythen authenticate with another service provider entity. For instance,previously deleted root certificates may have been copied and/or storedby the service provider entity and may be sent to the subscriber deviceto be restored.

Exemplary Network Operating Environment

FIG. 1 illustrates a wireless network communication system 100 inaccordance with an aspect. In this example, a first service providerentity 102 and a second service provider entity 104 are illustrated,where each service provider entity may provide subscriptions services toan end-user device 106. The end-user device 106 may be connected to anetwork 108, such as the Internet, via an access point 110 (e.g.,femtocell, etc.). The end-user device 106 and access point 110 may bereferred to as a “subscriber device”. The access point 110 may accessthe first service provider entity 102 via a first security gateway 112and/or the second service provider entity 104 via a second securitygateway 114.

When the end-user device powers on or initially enters a network (e.g.,within range of the access point 110), a communication service or linkmay be established with the service provider entity and anauthentication/authorization/accounting (AAA) procedure may beundertaken prior to enabling the end-user device 106 to access servicesassociated with the network. To that end, the end-user device 106 canprovide identifying indicia to an access point, which can in turn relaysuch indicia to an AAA or authentication server. The establishedcommunication service or link may allow for low-level communicationsbetween the service provider entity and the subscriber device. Low-levelcommunications may be non-user controlled services restricted tocommunications, for example, occurring below the application layer in atypical protocol stack including, but not limited to the non-accessstratum (NAS) layer, radio resource control (RRC) layer, radio linkcontrol (RLC) layer, media access control (MAC) layer and the physical(PHY) layer.

As shown in FIG. 1, each service provider entity 102, 104 may include anauthentication, authorization and accounting (AAA) server 116 and 118,respectively. The AAA servers 116, 118 may serve to authenticateconnections and keep track of the accounting for billing, etc. by thecarrier or service provider entity. Authentication may occur byutilizing public-key cryptography so that messages and transactions maybe mutually authenticated. In one aspect, a Rivest, Shamir and Adleman(RSA) encryption algorithm may be utilized. In one aspect, a Secure HashAlgorithm (SHA-1) hash algorithm may be utilized for the signature.

By mutually authenticating transactions, fraud may be avoided as theremay be secure/signed confirmation that the end-user device is authenticas well as secure confirmation that the server is authentic. In publickey-private key cryptography, asymmetric key algorithms are used, i.e.the key used to encrypt a message is not the same as the key used todecrypt it. Each user has a pair of cryptographic keys—a public key anda private key. The private key is kept secret, while the public key maybe widely distributed. Messages are encrypted with the recipient'spublic key and can only be decrypted with the corresponding private key.The keys are related mathematically, but the private key cannot befeasibly (i.e., in actual or projected practice) derived from the publickey. Furthermore, transactions using key information may be unique tothe end-user device or remote wireless device. Each end-user device mayinclude a unique device serial number which may be the mobile equipmentidentifier (MEID) or the international mobile equipmentidentity/identification (IMEI) or a device specific hardware addresssuch as the Institute of Electrical and Electronics Engineers (IEEE)Hardware Address. The device certificate is identified using the uniquedevice identifier associated with the subscriber device. By utilizingunique identification for each subscriber device, the flow ofactivations versus shipments may be tracked and double-counting may beavoided.

Each service provider entity may also include a management system moduleor management server 120, 122 for configuring and monitoring theoperation of subscriber devices (e.g., end-user devices or femtocells)as well as issuing commands to the end-user devices. Once the subscriberdevice has been authenticated with the first service provider entity102, it may not then access the network of the second service providerentity 104 and vice versa. This may be as a result of disqualifying(i.e. disabling or deleting) root certificates for other serviceprovider entities, so that the subscriber devices cannot operate withother services provider entities (e.g., because the subscriber deviceslack the root certificate to authenticate the other service providerentities).

Exemplary Communication System

As an end-user device and access point, as described above, can beemployed in conjunction with various features and/or aspects describedherein, both may be collectively referred to as a subscriber device. Thesubscriber device may be pre-configured with a plurality of rootcertificates that are associated with different service providerentities. A service provider entity may personalize the subscriberdevice to ensure the subscriber device may be used with that specificservice provider entity and cannot be used in a network of a differentservice provider entity. That is, the service provider entity may havesubsidized the sale or deployment of the subscriber device to one ormore users; consequently it may wish to restrict its use so that thesubscriber device cannot be used with other service provider entities(i.e., other communication carriers) for a period of time.

A subscriber device may be placed in use or activated by a serviceprovider entity or communication carrier. That is, after a subscriberdevice is sold or deployed to a user, communication service with aservice provider entity (e.g., communication carrier) may be activatedfor the subscriber device. The communication carrier may also restrictone or more root keys or certificates have subsidized the sale ordeployment of the subscriber device to one or more users, consequentlyit may wish to restrict use of the subscriber so that it does notoperate with any other service provider entity (i.e., othercommunication carriers).

FIG. 8 illustrates how a set of unassociated root certificates may beprovisioned in a subscriber device and disabled by a service providerentity. In this example, a set of unassociated root certificates/keys802, including root certificates/keys K_(A), K_(B), K_(C), . . . K_(N),may be provisioned in the subscriber device. As provisioned, theunassociated certificates/keys 802 are available for use by any provider(i.e., the unassociated are not initially provider-specific). As partactivation, where the subscriber device is setup with communicationservice from a service provider entity (i.e., communication carrier),the provider may select a first unassociated root certificate/key K_(B)which may be used to setup and/or establish service and other keys.After the provider has selected the first unassociated rootcertificate/key K_(B), it may send a command to cause the subscriberdevice to disable/delete some or all of the other root certificates/keysK_(A), K_(C), . . . K_(N) 804. By disabling/deleting some or all otherroot certificates/keys K_(A), K_(C), . . . K_(N), the service providerentity effectively prevents the subscriber device from being activatedby other providers. At some point (e.g., once a subscriber contract haslapsed), the service provider entity may re-enable the unassociated rootcertificates/keys 806 that were previously disabled/deleted. This allowsother providers to now provide service to the subscriber device.

FIG. 9 illustrates how a set of provider-specific root certificates maybe provisioned in a subscriber device and disabled by a service providerentity. In this example, a set of provider-specific rootcertificates/keys 902, including root certificates/keys K_(A), K_(B),K_(C), . . . K_(N), may be provisioned in the subscriber device. Asprovisioned, each provider-specific certificate/key is available for useby a corresponding provider (i.e., each provider has an associatedcertificate/key). As part activation, where the subscriber device issetup with communication service from a service provider entity (i.e.,communication carrier), a provider C may select its root certificate/keyK_(C) which may be used to setup and/or establish service and otherkeys. After the provider C has selected the provider-specific rootcertificate/key K_(C), it may send a command to cause the subscriberdevice to disable/delete some or all of the other root certificates/keysK_(A), K_(C), . . . K_(N) 904. By disabling/deleting some or all otherroot certificates/keys K_(A), K_(C), . . . K_(N), the service providerentity (provider C) effectively prevents the subscriber device frombeing activated by other providers (i.e., providers A, B, and N). Atsome point (e.g., once a subscriber contract has lapsed), the serviceprovider entity may re-enable the other provider-specific rootcertificates/keys 906 that were previously disabled/deleted. This allowsother providers to now provide service to the subscriber device.

An example of a root certificate/key is illustrated and described inFIG. 10.

Disable Unassociated Root Certificates

FIG. 2 is a flow diagram illustrating the operation of a communicationsystem in which a service provider entity 202 personalizes a subscriberdevice 204 to ensure the subscriber device cannot be used in a networkof a different service provider entity by commanding the subscriberdevice to disable all root certificates unassociated with the serviceprovider entity.

The subscriber device 204 may be pre-configured with a plurality of rootcertificates (i.e. trusted Certificate Authority certificates) for aplurality of different service provider entities 206 for authenticatingwith one of the plurality of service provider entities. In other words,a manufacturer of subscriber devices may install a plurality of rootcertificates onto all of its subscriber devices so that the subscriberdevices may be used with various different service provider entities.The service provider entity may also be pre-configured with rootcertificates for authenticating the subscriber devices 208.

When the subscriber device 204 powers on, or initially enters a network,a communication link may be established between the subscriber deviceand the service provider entity 210. This communication service or linkmay allow the subscriber device to have access to low-level services,which as described above, may be restricted to communications occurringbelow the application layer in a typical protocol stack. After thecommunication link has been established, anauthentication/authorization/accounting (AAA) procedure may beundertaken prior to enabling the subscriber device 204 to accesshigher-level services, such as communications occurring in theapplication layer of a typical protocol stack. Using methods well knownin the art, the subscriber device may be authenticated to the serviceprovider entity 212 and the service provider entity may be authenticatedto the subscriber device 214. After the mutual authentication of thesubscriber device and the service provider entity, the service providerentity may send a command (or instructions) to the subscriber device tosecurely disqualify specified root certificates pre-configured on thesubscriber device by disabling them 216.

In one example, the specified root certificates may be root certificatesfor authentication with different service provider entities. That is,the root certificates to be disabled are unassociated with the serviceprovider entity in which the subscriber device has been mutuallyauthenticated with. Consequently, by disabling the root certificates forother service provider entities, the subscriber device 204 is unable toauthenticate with those other service provider entities and thus cannotbe used in the networks of the other service provider entities. In otherwords, all root certificates pre-configured on the subscriber device mayremain on the subscriber device but are disabled so that the subscriberdevice cannot authenticate with a different service provider entity.

Upon receiving the command, the subscriber device 204 may then disablethe root certificates specified by the service provider entity 218. Thespecified root certificates may include all root certificates stored onthe subscriber device that are unassociated with the service providerentity. Note that existing end-user device management protocols, such asOpen Mobile Alliance-Device Management (OMA-DM) or Technical Report 069(TR-069), may support suitable commands as well as appropriate securityin order to perform such management operations in a secure and a trustedmanner.

Once the subscriber device has disabled the unassociated rootcertificates as instructed, or attempted to disable the unassociatedroot certificates, the subscriber device may send an acknowledgement tothe service provider entity 220. The acknowledgement may either indicatethat the instructions to disqualify (i.e. disable) the unassociated rootcertificates were successful or that the disablement of the unassociatedroot certificates has failed. Upon receiving a failure acknowledgementfrom the subscriber device, the service provider entity may takeadditional steps to disqualify the unassociated root certificates on thesubscriber device. For example, if attempts to disable the unassociatedroot certificates failed, the service provider entity may then decide tocommand the subscriber device to delete the unassociated rootcertificates instead of disabling the specified root certificates 222. Anew command may be sent to the subscriber device from the serviceprovider entity instructing the subscriber device to delete all rootcertificates unassociated with the service provider entity 224.

Once the specified unassociated root certificates have beendisqualified, by disablement or deletion, a communication service orlink may be established between the subscriber device and the serviceprovider entity allowing the subscriber device access to higher-levelservices 226. In one example, upon the occurrence of a pre-determinedevent, the service provider entity may optionally determine if the rootcertificates that the subscriber device disabled (or deleted ifdisablement failed) may be enabled (or replaced) on the subscriberdevice 228. The pre-determined event may be, for example, the end of aservice contract between the subscriber device and the service providerentity or upon payment of an unlocking or early termination fee. If theservice provider entity determines that the disabled (or deleted) rootcertificates are to be enabled (or replaced), the service providerentity may securely send a command (or instructions) to the subscriberdevice to enable (or replace) the root certificates that had beenpreviously disabled (or deleted) 230. Upon receiving the command, thedisabled (or deleted) root certificates may be enabled (or replaced) onthe subscriber device 232. As a result, the subscriber device may thenhave the ability to establish communication service with another serviceprovider entity.

Delete Unassociated Root Certificates

FIG. 3 is a flow diagram illustrating the operation of a communicationsystem in which a service provider entity 302 personalizes a subscriberdevice 304 to ensure the subscriber device cannot be used in a networkof a different service provider entity by commanding the subscriberdevice to delete all root certificates unassociated with the serviceprovider entity.

The subscriber device 304 may be pre-configured with a plurality of rootcertificates (i.e. trusted Certificate Authority certificates) for aplurality of different service provider entities 306 for authenticatingwith one of the plurality of service provider entities. The serviceprovider entity may also be pre-configured with root certificates forauthenticating subscriber devices 308.

When the subscriber device 304 powers on, or initially enters a network,a communication link may be established between the subscriber deviceand the service provider entity 310. Similar to FIG. 2, as describedabove, this communication service or link may allow the subscriberdevice access to low-level services, which as described above, mayinclude communications restricted to communications occurring below theapplication layer in a typical protocol stack. After the communicationlink has been established, an authentication/authorization/accounting(AAA) procedure may be undertaken prior to enabling the subscriberdevice 304 to access high-level, such as communications occurring in theapplication layer of a typical protocol stack. Using methods well knownin the art, the subscriber device may be authenticated to the serviceprovider entity 312 and the service provider entity may be authenticatedto the subscriber device 314. After the mutual authentication of thesubscriber device and the service provider entity, the service providerentity may send a command (or instructions) to the subscriber device tosecurely disqualify specified root certificates pre-configured on thesubscriber device by deleting them 316.

In one example, the specified root certificates may be root certificatesfor authentication with different service provider entities. That is,the root certificates to be deleted are unassociated with the serviceprovider entity in which the subscriber device has been mutuallyauthenticated with. Consequently, by deleting the root certificates forother service provider entities, the subscriber device 304 is unable toauthenticate with other service provider entities and thus cannot beused in the networks of the other service provider entities. Uponreceiving the command, the subscriber device 304 may then delete theroot certificates specified by the service provider entity 318. Thespecified root certificates may include all root certificates stored onthe subscriber device that are unassociated with the service providerentity. Note that existing end-user device management protocols, such asOpen Mobile Alliance-Device Management (OMA-DM) or Technical Report 069(TR-069), may support suitable commands as well as appropriate securityin order to perform such management operations in a secure and a trustedmanner.

Once the subscriber device has deleted the unassociated rootcertificates as instructed, or attempted to delete the unassociated rootcertificates, the subscriber device may send an acknowledgement to theservice provider entity 320. The acknowledgement may either indicatethat the instructions to disqualify (i.e. delete) the unassociated rootcertificates were successful or that the deletion of the unassociatedroot certificates has failed. Upon receiving a failure acknowledgementfrom the subscriber device, the service provider entity may takeadditional steps to disqualify the unassociated root certificates. Forexample, if attempts to delete the unassociated root certificatesfailed, the service provider entity may then decide to command thesubscriber device to disable the unassociated root certificates 322. Anew command may be sent to the subscriber device from the serviceprovider entity instructing the subscriber device to disable all rootcertificates unassociated with the service provider entity 324.

Once the unassociated root certificates have been disqualified, bydeletion or disablement, a communication service or link may beestablished between the subscriber device and the service providerentity allowing the subscriber device access to higher-level services326. In one example, upon the occurrence of a pre-determined event, theservice provider entity may optionally determine if the rootcertificates that the subscriber device deleted (or disabled if deletionfailed) may be replaced (or enabled) on the subscriber device 328. Thepre-determined event may be, for example, the end of a service contractbetween the subscriber device and the service provider entity or uponpayment of an unlocking or early termination fee. If the serviceprovider entity determines that the deleted (or disabled) rootcertificates are to be replaced (or enabled), the service providerentity may securely send a command (or instructions) to the subscriberdevice to replace (or enable) the root certificates that had beenpreviously deleted (or disabled) 330. Upon receiving the command, thedeleted (or disabled) root certificates may be replaced (or enabled) onthe subscriber device 332. As a result, the subscriber device may thenhave the ability to establish communication service with another serviceprovider entity.

Note that the methods, apparatuses and systems described herein may beapplicable to any device which connects to an operator network orservice provider entity using certificate-based mutual authentication.Examples may include relays (such as the Long Term Evolution (LTE)Relays being specified by 3GPP) as well as Mobile-to-Mobile (M2M)devices and future generic User Equipment/Mobile Equipment (UE/ME) thatsupport certificate based mutual authentication. Secure storage andexecution environment (such as the Secure Environment or TrustedEnvironment) for the root certificates may be desired to prevent thesubscription device from being susceptible to attacks such as making acopy of all the manufacturer-installed certificates before connectingthe subscription device, then reinstalling them. For example,standards-compliant femtocells already define this secure storage andexecution environments as part of a trusted or secure environment (see3GPP TS 33.320 or 3GPP2 S.S0132).

Exemplary Subscriber Device

FIG. 4 illustrates a block diagram of an internal structure of asubscriber device 400 according to one example. The subscriber device400 may include a processing circuit (e.g., processor, processingmodule, etc) 402 for executing computer-executable process steps and amemory device 404 to store root certificates. The subscriber device 400may also include a first communication interface 406 for communicativelycoupling the subscriber device 400 to a wireless communication networkoperated by a service provider. This first communication interface 406serves to establish a link between the subscriber device 400 and theservice provider.

In some implementations, such as when the subscriber device 400 is afemtocell or Node B, the subscriber device 400 may also include a secondcommunication interface 408 for connecting the subscriber device 400 toother subscriber devices. In such configuration of the subscriber device400 may relay communications to/from other wireless devices via thesecond communication interface 408.

Exemplary Operation of Subscriber Device

FIG. 5 (comprising FIGS. 5A, 5B, 5C and 5D) illustrates an example ofthe operation of the subscriber device. The subscriber device may beprovisioned (or pre-configured) with a plurality of root certificates(i.e. trusted CA certificates) for a plurality of service providerentities for mutually authenticating the service provider entity to oneof the plurality of service provider entities 502. Next, upon enteringthe network of one of the plurality of service provider entities, orpowering on the subscriber device in the network of one of the pluralityof service provider entities, a communication link may be establishedbetween the subscriber device and the service provider entity 504. Thiscommunication service or link may allow the subscriber device access tolow-level services, which as described above, may be restricted tocommunications occurring below the application layer in a typicalprotocol stack.

After the communication link has been established, using methods wellknown in the art, the subscriber device may be mutually authenticatedwith the service provider entity in which network it entered 506. Oncemutual authentication has occurred between the subscriber device and theservice provider entity, the subscriber device may receive a command (orinstructions) from the service provider entity to securely disqualifyspecified root certificates stored (i.e. pre-configured) on thesubscriber device that are unassociated with the service provider entity508. Upon receiving the command from the service provider entity todisqualify the specified unassociated root certificates, the subscriberdevice may determine if the command is to disable or delete thespecified unassociated root certificates 510.

Disable Specified Root Certificates

If the command is to disqualify the specified unassociated rootcertificates by disabling them, the subscriber device may then attemptto disable the specified root certificates 512. Next, the subscriberdevice determines if the specified root certificates were successfullydisabled 514. If the specified root certificates were successfullydisabled, the subscriber device may optionally send an acknowledgementto the service provider entity indicating the successful disablement ofthe specified root certificates 516. A communication service or link maythen be established with the service provider entity 518 allowing thesubscriber device access to higher-level services.

Optionally, the subscriber device may receive a second command from theservice provider entity to enable the specified root certificates thathave been previously disabled 520. In one example, the second commandmay be received upon the occurrence of a pre-determined event. Thepre-determined event may be, for example, the end of a service contractbetween the subscriber device and the service provider entity or thepayment of an unlocking or early termination fee to the service providerentity. Upon receiving the command, the specified root certificates thatwere previously disabled may now be enabled on the subscriber device522. As a result, the subscriber device may then establish communicationservice with another service provider entity.

Alternatively, if it is determined that the specified root certificateswere unsuccessfully disabled 514, the subscriber device may determine ifthere has been a previous failed attempt to delete the specified rootcertificates 524. If there has been a previous failed attempt to deletethe specified root certificates, this in combination with the failedattempt to disable the specified root certificates, may indicate thatthere may be a malfunction of the subscriber device 526 and thesubscriber device may need to be fixed or replaced. An acknowledgementmay then be sent to the service provider entity indicating attempts toboth disable and delete the specified root certificates have failed andthere may be a malfunction with the subscriber device 528.

Conversely, if there has not been a failed attempt to delete thespecified root certificates 524, an acknowledgement may be sent to theservice provider entity indicating a failure to successfully disable thespecified root certificates 530. Optionally, the subscriber device maythen receive a command from the service provider entity, in response tothe failure acknowledgement, to delete the specified root certificates532. The subscriber device may then try to delete the specified rootcertificates 534.

Deletion of Specified Root Certificates

If the command from the service provider entity to disqualify thespecified unassociated root certificates is to delete the specifiedunassociated root certificates 510, the subscriber device may thenattempt to delete the specified root certificates 534. Next, thesubscriber device may determine if the specified root certificates weresuccessfully deleted 536. If the specified root certificates weresuccessfully deleted, the subscriber device may send an acknowledgementto the service provider entity indicating the successful deletion of thespecified root certificates 538. A communication service or link maythen be established with the service provider entity 540 allowing thesubscriber device access to higher-level services.

Optionally, the subscriber device may receive a second command from theservice provider entity to replace the specified root certificates thathave been previously deleted 542. In one example, the second command maybe received upon the occurrence of a pre-determined event. Thepre-determined event may be, for example, the end of a service contractbetween the subscriber device and the service provider entity or thepayment of an unlocking or early termination fee to the service providerentity. Upon receiving the second command, the specified rootcertificates that were previously deleted may now be replaced on thesubscriber device 544. As a result, the subscriber device may thenestablish communication service with another service provider entity.

Alternatively, if it is determined that the specified root certificateswere unsuccessfully deleted 536, the subscriber device may determine ifthere has been a previous failed attempt to disable the specified rootcertificates 546. If there has been a previous failed attempt to disablethe specified root certificates, this in combination with the failedattempt to delete the specified root certificates may indicate thatthere may be a malfunction of the subscriber device 548 and thesubscriber device may need to be fixed or replaced. An acknowledgementmay then be sent to the service provider entity indicating attempts toboth delete and disable the specified root certificates have failed andthere may be a malfunction with the subscriber device 550.

Conversely, if there has not been a previous failed attempt to disablethe specified root certificates 546, an acknowledgement may be sent tothe service provider entity indicating a failure to successfully deletethe specified root certificates 552. Optionally, the subscriber devicemay then receive a command from the service provider entity, in responseto the failure acknowledgement, to disable the specified rootcertificates 554. The subscriber device may then try to disable thespecified root certificates 512.

Exemplary Service Provider Entity

FIG. 6 illustrates a block diagram of an internal structure of a serviceprovider entity 600 according to one example. As described above, theservice provider entity 600 may provide communication or subscriptionservices to a subscriber device.

The service provider entity 600 may include a processing circuit (e.g.,processor, processing module, etc) 602 for executing computer-executableprocess steps and a memory device 604 to store root certificates. Theservice provider entity 600 may also include a network communicationinterface 606 for communicatively coupling the service provider entity600 to a subscriber device.

The service provider entity 600 may also include an include anauthentication, authorization and accounting (AAA) server 608 forperforming an AAA procedure which, as described above, may be undertakenprior to enabling the subscriber device to access high-level servicesassociated with the service provider entity.

In one aspect, the service provider entity 600 may also include amanagement system module 610 for configuring and monitoring theoperation of subscriber devices as well as issuing commands to thesubscriber devices.

Exemplary Operation of Service Provider Entity

FIG. 7 (comprising FIGS. 7A, 7B and 7C) illustrates an example of theoperation of the service provider entity. The service provider entitymay include one or more servers and/or modules and may be provisioned(or pre-configured) with root certificates for authenticating subscriberdevices 702. When a subscriber device is powered on or enters thenetwork of a service provider entity, a communication service or linkmay be established with the subscriber device 704. This communicationservice or link may allow the subscriber device access to low-levelservices, which as described above, may be restricted to communicationsoccurring below the application layer in a typical protocol stack.

After the communication link has been established, using methods wellknown in the art, the service provider entity may be mutuallyauthenticated with the subscriber device 706. Once mutual authenticationhas occurred between the service provider entity and the subscriberdevice, the service provider entity may determine if the rootcertificates on the subscriber device unassociated with the serviceprovider entity are to be disabled or deleted 708.

Command Disablement of Specified Root Certificates

If the unassociated root certificates are to be disabled, the subscriberdevice may send a command (or instructions) to the subscriber device todisable the specified root certificates stored in the subscriber device,the specified root certificates unassociated with the service providerentity 710. The service provider entity may receive an acknowledgementfrom the subscriber device as to the success or failure of thedisablement of the specified root certificates 712. A determination maythen be made as to whether the acknowledgement indicates the disablementwas successful or was a failure 714. If the specified root certificateswere successfully disabled, a communication service or link may then beestablished with the subscriber device 716 allowing the subscriberdevice access to higher-level services.

Optionally, the subscriber device may send a second command to thesubscriber device to enable the specified root certificates that havebeen previously disabled 718. In one example, the second command may besent upon the occurrence of a pre-determined event. The pre-determinedevent may be, for example, the end of a service contract between thesubscriber device and the service provider entity or the payment of anunlocking or early termination fee by the subscriber device to theservice provider entity.

Alternatively, if it is determined that the specified root certificateswere unsuccessfully disabled 714, the service provider entity maydetermine if a command is to be sent to the subscriber deviceinstructing the subscriber device to try to delete the specified rootcertificates 720. If there has not been a previously failed attempt todelete the specified root certificates, the service provider entity maysend a command to the subscriber device to delete the specified rootcertificates 722. Conversely, if there has been a previously failedattempt to delete the specified root certificates, this in combinationwith the failed attempt to disable the specified root certificates mayindicate that there may be a malfunction of the subscriber device andthe subscriber device may need to be fixed or replaced.

Command Deletion of Specified Root Certificates

If the service provider entity determines that the root certificates onthe subscriber device unassociated with the service provider entity areto be deleted 708, the subscriber device may send a command (orinstructions) to the subscriber device to delete the specified rootcertificates stored in the subscriber device, the specified rootcertificates unassociated with the service provider entity 724. Theservice provider entity may receive an acknowledgement from thesubscriber device as to the success or failure of the deletion of thespecified root certificates 726. A determination may then be made as towhether the acknowledgement indicates the deletion was successful or wasa failure 728. If the specified root certificates were successfullydeleted, a communication service or link may then be established withthe subscriber device 730 allowing the subscriber device access tohigher-level services.

Optionally, the subscriber device may send a second command to thesubscriber device to replace the specified root certificates that havebeen previously deleted 732. In one example, the second command may besent upon the occurrence of a pre-determined event. The pre-determinedevent may be, for example, the end of a service contract between thesubscriber device and the service provider entity or the payment of anunlocking or early termination fee by the subscriber device to theservice provider entity.

Alternatively, if it is determined that the specified root certificateswere unsuccessfully deleted 728, the service provider entity maydetermine if a command is to be sent to the subscriber deviceinstructing the subscriber device to try to disable the specified rootcertificates 734. If there has not been a previously failed attempt todisable the specified root certificates, the service provider entity maysend a command to the subscriber device to disable the specified rootcertificates 736. Conversely, if there has been a previously failedattempt to disable the specified root certificates, this in combinationwith the failed attempt to delete the specified root certificates mayindicate that there may be a malfunction of the subscriber device andthe subscriber device may need to be fixed or replaced.

Exemplary Root Certificate/Key Hierarchy

FIG. 10 illustrates an example of a root certificate/key hierarchy. Forinstance, this may be an Enhanced UMTS Terrestrial Radio Access Network(EUTRAN) key hierarchy. Here, a Universal Subscriber Identity Module(USIM) in the subscriber device, and an Authentication Center (AuC) atthe service provider entity, use a root certificate/key (i.e., masterkey) K to generate a cipher key (CK) and integrity key (IK). The cipherkey (CK) and integrity key (IK) may then be used by the subscriberdevice and a Home Subscriber Server (HSS), at the service providerentity, to generate an Access Security Management Entry key K_(ASME).The security activation in an LTE network may be accomplished throughAuthentication and Key Agreement procedure (AKA), Non-Access Stratum(NAS) Security Mode Configuration (NAS SMC) and AS Security modeConfiguration (AS SMC). AKA is used to derive the key K_(ASME), which isthen used as a base key for the calculation of NAS (Non-Access Stratum)keys and AS (Access Stratum) keys. The subscriber device and a MobilityManagement Entity (MME), at the network side, may then use the K_(ASME)to generate one or more of these security keys.

It should be recognized that, generally, most of the processingdescribed in this disclosure may be implemented in a similar fashion.Any of the circuit(s) or circuit sections may be implemented alone or incombination as part of an integrated circuit with one or moreprocessors. The one or more of the circuits may be implemented on anintegrated circuit, an Advance RISC Machine (ARM) processor, a digitalsignal processor (DSP), a general purpose processor, etc.

Also, it is noted that the embodiments may be described as a processthat is depicted as a flowchart, a flow diagram, a structure diagram, ora block diagram. Although a flowchart may describe the operations as asequential process, many of the operations can be performed in parallelor concurrently. In addition, the order of the operations may bere-arranged. A process is terminated when its operations are completed.A process may correspond to a method, a function, a procedure, asubroutine, a subprogram, etc. When a process corresponds to a function,its termination corresponds to a return of the function to the callingfunction or the main function.

As used in this application, the terms “component,” “module,” “system,”and the like are intended to refer to a computer-related entity, eitherhardware, firmware, a combination of hardware and software, software, orsoftware in execution. For example, a component may be, but is notlimited to being, a process running on a processor, a processor, anobject, an executable, a thread of execution, a program, and/or acomputer. By way of illustration, both an application running on acomputing device and the computing device can be a component. One ormore components can reside within a process and/or thread of executionand a component may be localized on one computer and/or distributedbetween two or more computers. In addition, these components can executefrom various computer readable media having various data structuresstored thereon. The components may communicate by way of local and/orremote processes such as in accordance with a signal having one or moredata packets (e.g., data from one component interacting with anothercomponent in a local system, distributed system, and/or across a networksuch as the Internet with other systems by way of the signal).

Moreover, a storage medium may represent one or more devices for storingdata, including read-only memory (ROM), random access memory (RAM),magnetic disk storage mediums, optical storage mediums, flash memorydevices and/or other machine-readable mediums, processor-readablemediums, and/or computer-readable mediums for storing information. Theterms “machine-readable medium”, “computer-readable medium”, and/or“processor-readable medium” may include, but are not limited tonon-transitory mediums such as portable or fixed storage devices,optical storage devices, and various other mediums capable of storing,containing or carrying instruction(s) and/or data. Thus, the variousmethods described herein may be fully or partially implemented byinstructions and/or data that may be stored in a “machine-readablemedium”, “computer-readable medium”, and/or “processor-readable medium”and executed by one or more processors, machines and/or devices.

Furthermore, embodiments may be implemented by hardware, software,firmware, middleware, microcode, or any combination thereof. Whenimplemented in software, firmware, middleware or microcode, the programcode or code segments to perform the necessary tasks may be stored in amachine-readable medium such as a storage medium or other storage(s). Aprocessor may perform the necessary tasks. A code segment may representa procedure, a function, a subprogram, a program, a routine, asubroutine, a module, a software package, a class, or any combination ofinstructions, data structures, or program statements. A code segment maybe coupled to another code segment or a hardware circuit by passingand/or receiving information, data, arguments, parameters, or memorycontents. Information, arguments, parameters, data, etc. may be passed,forwarded, or transmitted via any suitable means including memorysharing, message passing, token passing, network transmission, etc.

The various illustrative logical blocks, modules, circuits, elements,and/or components described in connection with the examples disclosedherein may be implemented or performed with a general purpose processor,a digital signal processor (DSP), an application specific integratedcircuit (ASIC), a field programmable gate array (FPGA) or otherprogrammable logic component, discrete gate or transistor logic,discrete hardware components, or any combination thereof designed toperform the functions described herein. A general purpose processor maybe a microprocessor, but in the alternative, the processor may be anyconventional processor, controller, microcontroller, or state machine. Aprocessor may also be implemented as a combination of computingcomponents, e.g., a combination of a DSP and a microprocessor, a numberof microprocessors, one or more microprocessors in conjunction with aDSP core, or any other such configuration.

The methods or algorithms described in connection with the examplesdisclosed herein may be embodied directly in hardware, in a softwaremodule executable by a processor, or in a combination of both, in theform of processing unit, programming instructions, or other directions,and may be contained in a single device or distributed across multipledevices. A software module may reside in RAM memory, flash memory, ROMmemory, EPROM memory, EEPROM memory, registers, hard disk, a removabledisk, a CD-ROM, or any other form of storage medium known in the art. Astorage medium may be coupled to the processor such that the processorcan read information from, and write information to, the storage medium.In the alternative, the storage medium may be integral to the processor.

Those of skill in the art would further appreciate that the variousillustrative logical blocks, modules, circuits, and algorithm stepsdescribed in connection with the embodiments disclosed herein may beimplemented as electronic hardware, computer software, or combinationsof both. To clearly illustrate this interchangeability of hardware andsoftware, various illustrative components, blocks, modules, circuits,and steps have been described above generally in terms of theirfunctionality. Whether such functionality is implemented as hardware orsoftware depends upon the particular application and design constraintsimposed on the overall system.

The various features of the invention described herein can beimplemented in different systems without departing from the invention.It should be noted that the foregoing embodiments are merely examplesand are not to be construed as limiting the invention. The descriptionof the embodiments is intended to be illustrative, and not to limit thescope of the claims. As such, the present teachings can be readilyapplied to other types of apparatuses and many alternatives,modifications, and variations will be apparent to those skilled in theart.

1. A method operational on a subscriber device, comprising: establishinga communication service with a service provider entity; receiving acommand from the service provider entity to disqualify specified rootcertificates stored in the subscriber device, the specified rootcertificates unassociated with the service provider entity; anddisqualifying the specified root certificates.
 2. The method of claim 1,further comprising: authenticating the subscriber device with theservice provider entity; and authenticating the service provider entitywith the subscriber device.
 3. The method of claim 2, wherein theservice provider entity is authenticated using a root certificate fromamong a plurality of pre-configured root certificates in the subscriberdevice.
 4. The method of claim 1, wherein disqualifying the specifiedroot certificates disables the specified root certificates on thesubscriber device.
 5. The method of claim 4, further comprising:receiving a second command from the service provider entity to enablethe specified root certificates previously disabled.
 6. The method ofclaim 5, wherein a determination to send the second command to thesubscriber device is made by the service provider entity.
 7. The methodof claim 6, wherein the determination is based upon a pre-determinedevent.
 8. The method of claim 7, wherein the pre-determined event is thetermination of a service contract between the subscriber device and theservice provider entity.
 9. The method of claim 1, wherein disqualifyingthe specified root certificates deletes the specified root certificatesfrom the subscriber device.
 10. The method of claim 9, furthercomprising: receiving a second command from the service provider entityto replace the specified root certificates previously deleted.
 11. Themethod of claim 10, wherein a determination to send the second commandto the subscriber device is made by the service provider entity.
 12. Themethod of claim 11, wherein the determination is based upon apre-determined event.
 13. The method of claim 12, wherein thepre-determined event is the termination of a service contract betweenthe subscriber device and the service provider entity.
 14. The method ofclaim 1, further comprising pre-configuring the subscriber device with aplurality of root certificates.
 15. The method of claim 14, wherein theplurality of root certificates are installed on the subscriber device bya manufacturer of the subscriber device.
 16. The method of claim 1,further comprising: determining if the specified root certificates havebeen successfully disqualified; and sending an acknowledgement to theservice provider entity of success or failure of disqualifying thespecified root certificates.
 17. The method claim 1, wherein thesubscriber device is at least one of a femtocell, a home Node B, or awireless device.
 18. A subscriber device, comprising: a memory device; anetwork communication interface coupled to the memory device, thenetwork communication interface for providing connectivity to a serviceprovider entity; and a processing circuit coupled to the memory deviceand the network communication interface, the processing circuitconfigured to: establish a communication service with the serviceprovider entity; receive a command from the service provider entity todisqualify specified root certificates stored in the subscriber device,the specified root certificates unassociated with the service providerentity; and disqualify the specified root certificates.
 19. Thesubscriber device of claim 18, wherein the processing circuit is furtherconfigured to: authenticate the subscriber device with the serviceprovider entity; and authenticate the service provider entity with thesubscriber device.
 20. The subscriber device of claim 19, wherein theservice provider entity is authenticated using a root certificate fromamong a plurality of pre-configured root certificates in the subscriberdevice.
 21. The subscriber device of claim 18, wherein disqualifying thespecified root certificates disables the specified root certificates.22. The subscriber device of claim 21, wherein the processing circuit isfurther configured to: receive a second command from the serviceprovider entity to enable the specified root certificates previouslydisabled.
 23. The subscriber device of claim 22, wherein a determinationto send the second command to the subscriber device is made by theservice provider entity.
 24. The subscriber device of claim 23, whereinthe determination is based upon a pre-determined event.
 25. Thesubscriber device of claim 24, wherein the pre-determined event is thetermination of a service contract between the subscriber device and theservice provider entity.
 26. The subscriber device of claim 18, whereindisqualifying the specified root certificates deletes the specified rootcertificates from the subscriber device.
 27. The subscriber device ofclaim 26, wherein the processing circuit is further configured to:receive a second command from the service provider entity to replace thespecified root certificates previously deleted.
 28. A subscriber device,comprising: means for establishing a communication service with aservice provider entity; means for receiving a command from the serviceprovider entity to disqualify specified root certificates stored in thesubscriber device, the specified root certificates unassociated with theservice provider entity; and means for disqualifying the specified rootcertificates.
 29. A computer-readable medium comprising instructionsoperational in a subscriber device, which when executed by a processorcauses the processor to: establish a communication service with aservice provider entity; receive a command from the service providerentity to disqualify specified root certificates stored in thesubscriber device, the specified root certificates unassociated with theservice provider entity; and disqualify the specified root certificates.30. A method operational on a service provider entity, comprising:establishing a communication service with a subscriber device; andsending a command to the subscriber device to disqualify specified rootcertificates stored on the subscriber device, the specified rootcertificates unassociated with the service provider entity.
 31. Themethod of claim 30, further comprising: authenticating the subscriberdevice with the service provider entity; and authenticating the serviceprovider entity with the subscriber device.
 32. The method of claim 31,wherein the service provider entity is authenticated using a rootcertificate from among a plurality of pre-configured root certificatesin the subscriber device.
 33. The method of claim 30, whereindisqualifying the specified root certificates disables the specifiedroot certificates
 34. The method of claim 33, further comprising:sending a second command to the subscriber device to enable thespecified root certificates previously disabled.
 35. The method of claim34, wherein a determination to send the second command is based upon apre-determined event.
 36. The method of claim 35, wherein thepre-determined event is the termination of a service contract betweenthe subscriber device and the service provider entity.
 37. The method ofclaim 30, wherein disqualifying the specified root certificates deletesthe specified root certificates from the subscriber device.
 38. Themethod of claim 37, further comprising: sending a second command to thesubscriber device to replace the specified root certificates previouslydeleted.
 39. The method of claim 38, wherein a determination to send thesecond command to the subscriber device is made by the service providerentity.
 40. The method of claim 39, wherein the determination is basedupon a pre-determined event.
 41. The method of claim 40, wherein thepre-determined event is the termination of a service contract betweenthe subscriber device and the service provider entity.
 42. The method ofclaim 30, further comprising pre-configuring the service provider entitywith a plurality of root certificates for a plurality of subscriberdevices.
 43. The method of claim 30, further comprising: receiving anacknowledgement from the subscriber device of success or failure ofdisqualifying the specified root certificates.
 44. A service providerentity, comprising: a memory device; a network communication interfacecoupled to the memory device, the network communication interface forproviding connectivity to a subscriber device; and a processing circuitcoupled to the memory device and the network communication interface,the processing circuit configured to: establish a communication servicewith the subscriber device; and send a command to the subscriber deviceto disqualify specified root certificates stored on the subscriberdevice, the specified root certificates unassociated with the serviceprovider entity.
 45. The service provider entity of claim 44, whereinthe processing circuit is further configured to: authenticate thesubscriber device with the service provider entity; and authenticate theservice provider entity with the subscriber device.
 46. The serviceprovider entity of claim 45, wherein the service provider entity isauthenticated using a root certificate from among a plurality ofpre-configured root certificates in the subscriber device.
 47. Theservice provider entity of claim 44, wherein disqualifying the specifiedroot certificates disables the specified root certificates
 48. Theservice provider entity of claim 47, wherein the processing circuit isfurther configured to: send a second command to the subscriber device toenable the specified root certificates previously disabled.
 49. Theservice provider entity of claim 48, wherein a determination to send thesecond command is based upon a pre-determined event.
 50. The serviceprovider entity of claim 49, wherein the pre-determined event is thetermination of a service contract between the subscriber device and theservice provider entity.
 51. The service provider entity of claim 44,wherein disqualifying the specified root certificates deletes thespecified root certificates from the subscriber device.
 52. The serviceprovider entity of claim 51, wherein the processing circuit is furtherconfigured to: send a second command to the subscriber device to replacethe specified root certificates previously deleted.
 53. The serviceprovider entity of claim 52, wherein a determination to send the secondcommand to the subscriber device is made by the service provider entity.54. The service provider entity of claim 53, wherein the determinationis based upon a pre-determined event.
 55. The service provider entity ofclaim 54, wherein the pre-determined event is the termination of aservice contract between the subscriber device and the service providerentity.
 56. A service provider entity, comprising: means forestablishing a communication service with a subscriber device; and meansfor sending a command to the subscriber device to disqualify specifiedroot certificates stored on the subscriber device, the specified rootcertificates unassociated with the service provider entity.
 57. Acomputer-readable medium comprising instructions operational in aservice provider entity, which when executed by a processor causes theprocessor to: establish a communication service with a subscriberdevice; and send a command to the subscriber device to disqualifyspecified root certificates stored on the subscriber device, thespecified root certificates unassociated with the service providerentity.